~speedprog/mtg/mtg_card_detector.git

			@@ -17,15 +17,13 @@
			#include "dropout_layer.h"

			#ifdef GPU
			cl_mem get_network_output_cl_layer(network net, int i);
			cl_mem get_network_delta_cl_layer(network net, int i);

			void forward_network_gpu(network net, cl_mem input, cl_mem truth, int train)
			{
			//printf("start\n");
			int i;
			// printf("Truth: %f\n", cl_checksum(truth, 1000*net.batch));
			for(i = 0; i < net.n; ++i){
			//printf("Truth %i: %f\n", i, cl_checksum(truth, 1000*net.batch));
			//clock_t time = clock();
			if(net.types[i] == CONVOLUTIONAL){
			convolutional_layer layer = (convolutional_layer )net.layers[i];
			forward_convolutional_layer_gpu(layer, input);
			@@ -55,19 +53,11 @@
			dropout_layer layer = (dropout_layer )net.layers[i];
			forward_dropout_layer_gpu(layer, input);
			}
			//printf("%d %f\n", i, sec(clock()-time));
			/*
			else if(net.types[i] == CROP){
			crop_layer layer = (crop_layer )net.layers[i];
			forward_crop_layer(layer, input);
			input = layer.output;
			}
			else if(net.types[i] == NORMALIZATION){
			normalization_layer layer = (normalization_layer )net.layers[i];
			forward_normalization_layer(layer, input);
			input = layer.output;
			}
			*/
			else if(net.types[i] == CROP){
			crop_layer layer = (crop_layer )net.layers[i];
			forward_crop_layer_gpu(layer, input);
			input = layer.output_cl;
			}
			}
			}

			@@ -77,7 +67,6 @@
			cl_mem prev_input;
			cl_mem prev_delta;
			for(i = net.n-1; i >= 0; --i){
			//clock_t time = clock();
			if(i == 0){
			prev_input = input;
			prev_delta = 0;
			@@ -101,11 +90,14 @@
			maxpool_layer layer = (maxpool_layer )net.layers[i];
			backward_maxpool_layer_gpu(layer, prev_delta);
			}
			else if(net.types[i] == DROPOUT){
			dropout_layer layer = (dropout_layer )net.layers[i];
			backward_dropout_layer_gpu(layer, prev_delta);
			}
			else if(net.types[i] == SOFTMAX){
			softmax_layer layer = (softmax_layer )net.layers[i];
			backward_softmax_layer_gpu(layer, prev_delta);
			}
			//printf("back: %d %f\n", i, sec(clock()-time));
			}
			}

			@@ -138,6 +130,10 @@
			maxpool_layer layer = (maxpool_layer )net.layers[i];
			return layer.output_cl;
			}
			else if(net.types[i] == CROP){
			crop_layer layer = (crop_layer )net.layers[i];
			return layer.output_cl;
			}
			else if(net.types[i] == SOFTMAX){
			softmax_layer layer = (softmax_layer )net.layers[i];
			return layer.output_cl;
			@@ -174,7 +170,6 @@
			{
			int x_size = get_network_input_size(net)*net.batch;
			int y_size = get_network_output_size(net)*net.batch;
			//clock_t time = clock();
			if(!*net.input_cl){
			*net.input_cl = cl_make_array(x, x_size);
			*net.truth_cl = cl_make_array(y, y_size);
			@@ -182,61 +177,13 @@
			cl_write_array(*net.input_cl, x, x_size);
			cl_write_array(*net.truth_cl, y, y_size);
			}
			//printf("trans %f\n", sec(clock()-time));
			//time = clock();

			forward_network_gpu(net, net.input_cl, net.truth_cl, 1);

			//printf("forw %f\n", sec(clock()-time));
			//time = clock();
			backward_network_gpu(net, *net.input_cl);
			//printf("back %f\n", sec(clock()-time));
			//time = clock();

			update_network_gpu(net);
			float error = get_network_cost(net);

			//printf("updt %f\n", sec(clock()-time));
			//time = clock();
			return error;
			}

			float train_network_sgd_gpu(network net, data d, int n)
			{
			int batch = net.batch;
			float X = calloc(batchd.X.cols, sizeof(float));
			float y = calloc(batchd.y.cols, sizeof(float));

			int i;
			float sum = 0;
			for(i = 0; i < n; ++i){
			get_random_batch(d, batch, X, y);
			float err = train_network_datum_gpu(net, X, y);
			sum += err;
			}
			free(X);
			free(y);
			return (float)sum/(n*batch);
			}

			float train_network_data_gpu(network net, data d, int n)
			{
			int batch = net.batch;
			float X = calloc(batchd.X.cols, sizeof(float));
			float y = calloc(batchd.y.cols, sizeof(float));

			int i;
			float sum = 0;
			for(i = 0; i < n; ++i){
			get_next_batch(d, batch, i*batch, X, y);
			float err = train_network_datum_gpu(net, X, y);
			sum += err;
			}
			free(X);
			free(y);
			return (float)sum/(n*batch);
			}

			float *get_network_output_layer_gpu(network net, int i)
			{
			if(net.types[i] == CONVOLUTIONAL){
			@@ -268,7 +215,7 @@

			float network_predict_gpu(network net, float input)
			{


			int size = get_network_input_size(net) * net.batch;
			cl_mem input_cl = cl_make_array(input, size);
			forward_network_gpu(net, input_cl, 0, 0);
			@@ -277,36 +224,4 @@
			return out;
			}

			matrix network_predict_data_gpu(network net, data test)
			{
			int i,j,b;
			int k = get_network_output_size(net);
			matrix pred = make_matrix(test.X.rows, k);
			float X = calloc(net.batchtest.X.cols, sizeof(float));
			for(i = 0; i < test.X.rows; i += net.batch){
			for(b = 0; b < net.batch; ++b){
			if(i+b == test.X.rows) break;
			memcpy(X+btest.X.cols, test.X.vals[i+b], test.X.colssizeof(float));
			}
			float *out = network_predict_gpu(net, X);
			for(b = 0; b < net.batch; ++b){
			if(i+b == test.X.rows) break;
			for(j = 0; j < k; ++j){
			pred.vals[i+b][j] = out[j+b*k];
			}
			}
			}
			free(X);
			return pred;
			}
			float network_accuracy_gpu(network net, data d)
			{
			matrix guess = network_predict_data_gpu(net, d);
			float acc = matrix_accuracy(d.y, guess);
			free_matrix(guess);
			return acc;
			}



			#endif